Display panel, pixel compensation circuit, and method for controlling the same

1. A pixel compensation circuit, comprising: a driving transistor; a resetting circuit having one terminal coupled to a driving signal receiving terminal, and another terminal coupled to a control terminal of the driving transistor, and configured to reset the driving transistor under control of a driving signal, wherein the driving signal receiving terminal is configured to receive the driving signal; a compensation circuit having a first terminal coupled to a data voltage receiving terminal, a second terminal coupled to the other terminal of the resetting circuit and a control terminal of the driving transistor, respectively, a third terminal coupled to a first electrode of the driving transistor, a fourth terminal coupled to a second electrode of the driving transistor, and a control terminal coupled to the driving signal receiving terminal, and configured to compensate for the driving transistor; and a light-emitting control circuit having a first terminal coupled to a first reference signal terminal, a second terminal coupled to a first electrode of a light-emitting element, a third terminal coupled to the third terminal of the compensation circuit and the first electrode of the driving transistor, respectively, a fourth terminal coupled to the fourth terminal of the compensation circuit and the second electrode of the driving transistor, respectively, and a control terminal coupled to a light-emitting control signal receiving terminal, and configured to drive the light-emitting element to emit light under control of a light-emitting control signal, wherein the light-emitting control signal receiving terminal is configured to receive the light-emitting control signal.

2. The pixel compensation circuit according to claim 1 , wherein the resetting circuit comprises: a first capacitor having a first electrode coupled to the driving signal receiving terminal, and a second electrode coupled to the control terminal of the driving transistor.

3. The pixel compensation circuit according to claim 1 , wherein the compensation circuit comprises: a first transistor having a control terminal coupled to the driving signal receiving terminal, a first electrode coupled to the data voltage receiving terminal, and a second electrode coupled to the first electrode of the driving transistor; and a second transistor having a control terminal coupled to the driving signal receiving terminal, a first electrode coupled to the control terminal of the driving transistor, and a second electrode coupled to the second electrode of the driving transistor.

4. The pixel compensation circuit according to claim 1 , wherein the light-emitting control circuit comprises: a third transistor having a second electrode coupled to the first electrode of the driving transistor, a control terminal coupled to the light-emitting control signal receiving terminal, and a first electrode coupled to the first reference signal terminal; and a fourth transistor having a control terminal coupled to the light-emitting control signal receiving terminal, a first electrode coupled to the second electrode of the driving transistor, and a second electrode coupled to the first electrode of the light-emitting element.

5. The pixel compensation circuit according to claim 1 , wherein the second electrode of the light-emitting element is coupled to a second reference signal terminal.

6. The pixel compensation circuit according to claim 1 , wherein transistors used in the pixel compensation circuit are all P-type Thin Film Transistors.

7. The pixel compensation circuit according to claim 1 , wherein the light-emitting element is an Organic Light-emitting Diode.

8. The pixel compensation circuit according to claim 1 , wherein the resetting circuit comprises: a first capacitor having a first electrode coupled to the driving signal receiving terminal, and a second electrode coupled to the control terminal of the driving transistor; the compensation circuit comprises: a first transistor having a control terminal coupled to the driving signal receiving terminal, a first electrode coupled to the data voltage receiving terminal, and a second electrode coupled to the first electrode of the driving transistor; and a second transistor having a control terminal coupled to the driving signal receiving terminal, a first electrode coupled to the control terminal of the driving transistor, and a second electrode coupled to the second electrode of the driving transistor; and the light-emitting control circuit comprises: a third transistor having a second electrode coupled to the first electrode of the driving transistor, a control terminal coupled to the light-emitting control signal receiving terminal, and a first electrode coupled to the first reference signal terminal; and a fourth transistor having a control terminal coupled to the light-emitting control signal receiving terminal, a first electrode coupled to the second electrode of the driving transistor, and a second electrode coupled to the first electrode of the light-emitting element.

9. A display panel comprising the pixel compensation circuit according to claim 1 .

10. A touch display comprising the display panel according to claim 9 .

11. A method for controlling a pixel compensation circuit, wherein the pixel compensation circuit comprises: a driving transistor; a resetting circuit having one terminal coupled to a driving signal receiving terminal, and another terminal coupled to a control terminal of the driving transistor, and configured to reset the driving transistor under control of a driving signal, wherein the driving signal receiving terminal is configured to receive the driving signal; a compensation circuit having a first terminal coupled to a data voltage receiving terminal, a second terminal coupled to the other terminal of the resetting circuit and a control terminal of the driving transistor, respectively, a third terminal coupled to a first electrode of the driving transistor, a fourth terminal coupled to a second electrode of the driving transistor, and a control terminal coupled to the driving signal receiving terminal, and configured to compensate for the driving transistor; and a light-emitting control circuit having a first terminal coupled to a first reference signal terminal, a second terminal coupled to a first electrode of a light-emitting element, a third terminal coupled to the third terminal of the compensation circuit and the first electrode of the driving transistor, respectively, a fourth terminal coupled to the fourth terminal of the compensation circuit and the second electrode of the driving transistor, respectively, and a control terminal coupled to a light-emitting control signal receiving terminal, and configured to drive the light-emitting element to emit light under control of a light-emitting control signal, wherein the light-emitting control signal receiving terminal is configured to receive the light-emitting control signal, the method comprising steps of: in an initialization phase, generating, by the resetting circuit, an initialization signal according to a driving signal, and transferring the initialization signal to the control terminal of the driving transistor to reset the driving transistor; in a data writing and compensation phase, turning on the compensation circuit under the control of the driving signal, and sequentially transferring, by the compensation circuit, a data voltage signal to the first electrode of the driving transistor and one terminal of the resetting circuit, thereby generating a compensation signal under the action of the data voltage signal through the resetting circuit to compensate for the driving transistor and writing a compensation voltage into the resetting circuit; and in a light-emitting phase, turning on the light-emitting control circuit under the control of the light-emitting control signal, transferring, by the light-emitting control circuit, a first reference signal to the first electrode of the driving transistor, turning on the driving transistor under the control of the compensation voltage, outputting, by the driving transistor, driving current under the action of the first reference voltage, and driving, by the light-emitting control circuit, the light-emitting element to emit light according to the driving current.

12. The method according to claim 11 , wherein the resetting circuit comprises: a first capacitor having a first electrode coupled to the driving signal receiving terminal, and a second electrode coupled to the control terminal of the driving transistor.

13. The method according to claim 11 , wherein the compensation circuit comprises: a first transistor having a control terminal coupled to the driving signal receiving terminal, a first electrode coupled to the data voltage receiving terminal, and a second electrode coupled to the first electrode of the driving transistor; and a second transistor having a control terminal coupled to the driving signal receiving terminal, a first electrode coupled to the control terminal of the driving transistor, and a second electrode coupled to the second electrode of the driving transistor.

14. The method according to claim 11 , wherein the light-emitting control circuit comprises: a third transistor having a second electrode coupled to the first electrode of the driving transistor, a control terminal coupled to the light-emitting control signal receiving terminal, and a first electrode coupled to the first reference signal terminal; and a fourth transistor having a control terminal coupled to the light-emitting control signal receiving terminal, a first electrode coupled to the second electrode of the driving transistor, and a second electrode coupled to the first electrode of the light-emitting element.

15. The method according to claim 11 , wherein the second electrode of the light-emitting element is coupled to a second reference signal terminal.

16. The method according to claim 11 , wherein the driving current output by the driving transistor is calculated according to the following equation: I on = μ ⁢ ⁢ WC ox 2 ⁢ ⁢ L × ( VDD - V data ) 2 wherein I on is the driving current, μ is a mobility of the driving transistor, W is the channel width of the driving transistor, C ox is the oxidation capacitance at the control terminal of the driving transistor, L is the channel length of the driving transistor, VDD is the first reference signal voltage, and Vdata is the data voltage.